Exploring natural phytomicrobiome species can provide a crucial resource of beneficial microbes that can improve plant growth and productivity through nutrient uptake, secondary metabolite production, and resistance against pathogenicity and abiotic stresses. The phytomicrobiome composition,...
Thus, humic acid, fulvic acid, and seaweed extract were identified as biostimulators that enhanced tolerance against abiotic stress, promoted plant growth, and improved soil quality [34, 36]. Such biostimulators may contain plant hormone-like compounds or activate hormone activities as their mode-...
form functional entities that rely on each other1. The microbiota contributes to aspects such as disease resistance2,3,4,5, stress tolerance6,7, and nutrient acquisition8,9. Successful recruitment and maintenance of a sufficient abundance of specific microbial members determines the outcome of plant...
M. New insights into the regulation of aquaporins by the arbuscular mycorrhizal symbiosis in maize plants under drought stress and possible implications for plant performance. Mol. Plant Microbe Interact. 27, 349–363 (2014). Article Google Scholar Gamalero, E. & Glick, B. R. Bacterial ...
Phytohormones and beneficial microbes: essential components for plants to balance stress and fitness Front. Microbiol., 8 (2017), p. 2104 Google Scholar 114. J. Shao, et al. Analysis and cloning of the synthetic pathway of the phytohormone indole-3-acetic acid in the plant-beneficial Bacillus...
Since the colonization of land by ancestral plant lineages 450 million years ago, plants and their associated microbes have been interacting with each other, forming an assemblage of species that is often referred to as a “holobiont.” Selective pressur
Plant, root, and soil microbiome [OPINION] Microbiome Bioprospecting for Sustainable Agrobiome and Circular Bioeconomy– Dhananjaya Pratap Singh – Anthropocene Science Host genetic variation and specialized metabolites from wheat leaves enriches for phyllosphere Pseudomonas spp. with enriched antibiotic resistom...
2. Concepts and evolution of studies in plant-microbiomes 3. Methodologies used in the study of plant microbiomes 4. Microbial niches in plants 5. Factors that alter the structure of microbiomes (composition, wealth and abundance) 6. Benefits of microbiomes for plants 7. State of the art ...
Plants to Withstand Salinity Zhilin Yuan1,*, Irina S. Druzhinina2,*, Jessy Labbé3, Regina Redman4,Yuan Qin1, Russell Rodriguez4,5, Chulong Zhang6, Gerald A. Tuskan3 & Fucheng Lin6 Root microbiota is a crucial determinant of plant productivity and stress tolerance...
This lack of representation is rooted in the failure of common organizing principles derived from plant and animal ecology, such as the descendants of r-K selection theory3 or Grime’s competition–stress tolerance–ruderal (C–S–R) framework4,5, to fully capture the complexity of microbial ...